* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download ch 11 day 2
Remote ischemic conditioning wikipedia , lookup
Management of acute coronary syndrome wikipedia , lookup
Cardiac contractility modulation wikipedia , lookup
Coronary artery disease wikipedia , lookup
Artificial heart valve wikipedia , lookup
Rheumatic fever wikipedia , lookup
Heart failure wikipedia , lookup
Arrhythmogenic right ventricular dysplasia wikipedia , lookup
Lutembacher's syndrome wikipedia , lookup
Quantium Medical Cardiac Output wikipedia , lookup
Myocardial infarction wikipedia , lookup
Electrocardiography wikipedia , lookup
Atrial fibrillation wikipedia , lookup
Dextro-Transposition of the great arteries wikipedia , lookup
Review of blood through the body https://www.youtube.com/watch?v=KSbbDnbSEyM CARDIAC CONDUCTION SYSTEM https://www.youtube.com/watch?v=PCtOwdJdvTQ Todays Objectives • Name the elements of the intrinsic conduction system of the heart, and describe the pathway of impulses through this system. • Define systole, diastole, stroke volume, and cardiac cycle. • Define heart sounds and murmur. • Explain what information can be gained from an electrocardiogram. • Describe the effect of each of the following on heart rate: stimulation by the vagus nerve, exercise, epinephrine, and various ions. Day 2 Physiology of the Heart As the heart beats, or contracts, the blood makes continuous round trips—into and out of the heart, through the rest of the body, and then back to the heart—only to be sent out again. The amount of work that a heart does is almost too incredible to believe. In one day it pushes the body’s supply of 6 quarts or so of blood (6 liters [L]) through the blood vessels over 1000 times, meaning that it actually pumps about 6000 quarts of blood in a single day! Intrinsic Conduction System of the Heart: Setting the Basic Rhythm Although cardiac muscle can beat independently, the muscle cells in different areas of the heart have different rhythms. The atrial cells beat about 60 times per minute The ventricular cells contract more slowly (20–40/min). Therefore, without some type of unifying control system, the heart would be an uncoordinated and inefficient pump. Two systems act to regulate heart activity. One of these involves the nerves of the autonomic nervous system, which act like brakes and accelerators to decrease or increase the heart rate depending on which division is activated. This topic is considered later. The second system is the intrinsic conduction system, or nodal system, that is built into the heart tissue and sets its basic rhythm. This system causes heart muscle depolarization in only one direction—from the atria to the ventricles. Thus, the heart beats as a coordinated unit. One of the most important parts of the intrinsic conduction system is a crescent-shaped node of tissue called the sinoatrial (SA) node, located in the right atrium. Other components include the atrioventricular (AV) node at the junction of the atria and ventricles, the atrioventricular (AV) bundle (bundle of His) and the right and left bundle branches located in the interventricular septum, and finally the Purkinje fibers, which spread within the muscle of the ventricle walls. The SA node is a tiny cell mass with a mammoth job. Because it has the highest rate of depolarization in the whole system, it starts each heartbeat and sets the pace for the whole heart. The SA node is often called the pacemaker. See figure 11.6 FIGURE 11.6 The intrinsic conduction system of the heart. The depolarization wave initiated by the sinoatrial (SA) node passes successively through the atrial myocardium to the atrioventricular (AV) node, the AV bundle, the right and left bundle branches, and the Purkinje fibers in the ventricular walls. TERMS YOU NEED TO KNOW Heart block- any damage to the AV node can partially or totally release the ventricles from the control of the SA node. When this occurs, the ventricles (thus the heart) begin to beat at their own rate, which is much slower, some or all of the time. Ischemia or lack of an adequate blood supply to the heart muscle, may lead to fibrillation—a rapid, uncoordinated shuddering of the heart muscle (it looks like a bag of worms). Fibrillation makes the heart totally useless as a pump and is a major cause of death from heart attacks in adults. Tachycardia - is a rapid heart rate (over 100 beats per minute). Bradycardia - is a heart rate that is substantially slower than normal (less than 60 beats per minute). Neither condition is pathological, but prolonged tachycardia may progress to fibrillation. Cardiac Cycle In a healthy heart, the atria contract simultaneously. Then, as they start to relax, contraction of the ventricles begins. Systole and diastole mean heart contraction and relaxation, respectively. Because most of the pumping work is done by the ventricles, these terms always refer to the contraction and relaxation of the ventricles unless otherwise stated. The term cardiac cycle refers to the events of one complete heartbeat, during which both atria and ventricles contract and then relax. The average heart beats approximately 75 times per minute, so the length of the cardiac cycle is normally about 0.8 second. We will consider the cardiac cycle in terms of events occurring during three periods—mid-to-late diastole, ventricular systole, and early diastole. Heart Sounds When using a stethoscope, you can hear two distinct sounds during each cardiac cycle. These heart sounds are often described by the two syllables “lub” and “dup,” and the sequence is lub-dup, pause, lub-dup, pause, and so on. The first heart sound (lub) is caused by the closing of the AV valves. The second heart sound (dup) occurs when the semilunar valves close at the end of systole. The first heart sound is longer and louder than the second heart sound, which tends to be short and sharp. Abnormal or unusual heart sounds are called murmurs. Heart murmurs are fairly common in young children (and some elderly people) with perfectly healthy hearts. However, murmurs in patients who do not fall into either of these groups most often indicate valve problems. For example, if a valve does not close tightly (is incompetent), a swishing sound will be heard after that valve has (supposedly) closed, as the blood flows back through the partially open valve. ELECTROCARDIOGRAPHY: (DON’T) BE STILL MY HEART When impulses pass through the heart, electrical currents are generated that spread throughout the body. These impulses can be detected on the body surface and recorded with an electrocardiograph. The recording that is made, the electrocardiogram (ECG), traces the flow of current through the heart. The illustration shows a normal ECG tracing. Cardiac Output Cardiac output (CO) is the amount of blood pumped out by each side of the heart (actually each ventricle) in 1 minute. It is the product of the heart rate (HR) and the stroke volume (SV). Stroke volume is the volume of blood pumped out by a ventricle with each heartbeat. In general, stroke volume increases as the force of ventricular contraction increases. If we use the normal resting values for heart rate (75 beats per minute) and stroke volume (70 ml per beat), the average adult cardiac output can be easily figured: CO = HR (75 beats/min) × SV (70 ml/beat) CO = 5250 ml/min The normal adult blood volume is about 6000 ml (6L), so the entire blood supply passes through the body once each minute. Heart identification activities